The impact of maternal HIV infection on cord blood lymphocyte subsets and cytokine profile in exposed non-infected newborns

Background Children born to HIV+ mothers are exposed intra-utero to several drugs and cytokines that can modify the developing immune system, and influence the newborn's immune response to infections and vaccines. We analyzed the relation between the distribution of cord blood lymphocyte subsets and cytokine profile in term newborns of HIV+ mothers using HAART during pregnancy and compared them to normal newborns. Methods In a prospective, controlled study, 36 mother-child pairs from HIV+ mothers and 15 HIV-uninfected mothers were studied. Hematological features and cytokine profiles of mothers at 35 weeks of pregnancy were examined. Maternal and cord lymphocyte subsets as well as B-cell maturation in cord blood were analyzed by flow cytometry. The non-stimulated, as well as BCG- and PHA-stimulated production of IL2, IL4, IL7, IL10, IL12, IFN-γ and TNF-alpha in mononuclear cell cultures from mothers and infants were quantified using ELISA. Results After one year follow-up none of the exposed infants became seropositive for HIV. An increase in B lymphocytes, especially the CD19/CD5+ ones, was observed in cord blood of HIV-exposed newborns. Children of HIV+ hard drug using mothers had also an increase of immature B-cells. Cord blood mononuclear cells of HIV-exposed newborns produced less IL-4 and IL-7 and more IL-10 and IFN-γ in culture than those of uninfected mothers. Cytokine values in supernatants were similar in infants and their mothers except for IFN-γ and TNF-alpha that were higher in HIV+ mothers, especially in drug abusing ones. Cord blood CD19/CD5+ lymphocytes showed a positive correlation with cord IL-7 and IL-10. A higher maternal age and smoking was associated with a decrease of cord blood CD4+ cells. Conclusions in uninfected infants born to HIV+ women, several immunological abnormalities were found, related to the residual maternal immune changes induced by the HIV infection and those associated with antiretroviral treatment. Maternal smoking was associated to changes in cord CD3/CD4 lymphocytes and maternal hard drug abuse was associated with more pronounced changes in the cord B cell line.


Background
HIV infection is associated with a complex pattern of changes in the hemopoietic and the immune systems, resulting in abnormalities of peripheral blood (PB) counts and changes in T and B lymphocytes. Decrease of T helper and increase of cytotoxic lymphocytes, profound changes in the cytokine profile and a variety of B lymphocyte abnormalities have been repeatedly described [1][2][3][4]. However, long term antiretroviral therapy (ARV) is able to restore, at least in part, the immune function [3][4][5][6].
* Correspondence: ilmetze@unicamp.br 5 Hemocentro -State University of Campinas, Rua Carlos Chagas 480, 13083-878 Campinas -SP Brazil Full list of author information is available at the end of the article PB count changes are soon reversed, but some T lymphocyte changes may last for as long as 8 years [2]. Therefore, these infants present an increased risk for severe infections. This risk is further increased as newborns from HIV-infected mothers usually do not receive breast feeding in order to avoid vertical transmission. Changes in T lymphocytes may also affect the response to vaccines given in the neonatal period [2,[10][11][12][13].
Alterations in infants' T lymphocyte subsets have been well studied, but little is known about the impact of HIV infection and highly active antiretroviral treatment (HAART) on neonatal maturation and function of B lymphocytes [8,15].
The aim of our study was to analyze the B cell maturation in umbilical cord blood of infants born to HIV-infected mothers using HAART. We also studied the relation between the distribution of lymphocyte subsets and cytokine production in short term cultures of cord blood mononuclear cells in as well as in maternal peripheral blood mononuclear cells at 35 weeks of pregnancy. We also looked for the relation between maternal smoking and use of hard drugs during pregnancy and infant's lymphocyte subpopulations.

Mother-child pairs
We studied 36 mother-child pairs of HIV positive pregnant women attended at our High Risk Obstetric Unit. They were >18 years old, were using HAART during gestation and had a low or undetectable viral load. All of them had a term delivery. None of the newborns had a malformation at birth. Their data were compared to 15 normal mother-child pairs, which were also attended at our Institution. Mothers of the control group were also >18 years old, had no known pathological condition: hypertension, diabetes, obesity, autoimmune disorders, infections, nor a past history of repeated infections suggesting an underlying immunodeficiency, and had a normal term delivery.
Peripheral blood counts as well as cytokine profile of both groups of mothers as well as viral load of the HIV + ones were taken between 32 to 35 weeks of gestation.
After 13-17 months of observation none of the exposed infants developed HIV infection. Infants were considered HIV-uninfected and defined as seroreverters if they had negative HIV-polymerase chain reaction (PCR) tests at 1 and 3 months of age or became HIVseronegative after 13 months of age.

Cord blood analysis
Cord blood was separated at delivery and processed during the first 24 hours after collection. Cell counts were performed in the hematologic counter Advia 120 (Bayer, Dublin -Ireland). Lymphocyte subsets were studied by flow cytometry. T lymphocytes were analyzed in the CD4/ CD8/CD3 combination. Their number was expressed as percentage of CD3+ cells among all cord blood nucleated cells. B lymphopoiesis was studied in the combinations: CD5/CD19/CD45, CD45/CD34/CD19/CD22 and sIgM/ CD34/CD19/CD10 (Figure 1). For each case, at least 50000 events were acquired using the FACSCalibur (Beckton Dickinson) equipment (Cell Quest software). Analysis was performed using the Paint-a-Gate software.

T-cell proliferation
Cord Blood mononuclear cells (CBMC) were isolated by density gradient centrifugation over Ficoll-Hypaque (Amersham Biosciences, USA), washed, diluted to 1 × 10 6 cells/mL in RPMI 1640 medium (Sigma, USA), supplemented with 10% human AB serum (Sigma, USA), 1% glutamine (Sigma, USA) and 0.1% gentamycin and stimulated for 6 days with PHA or medium alone at 37°C with 5% CO2 96-well tissue culture plates (NUNC, Denmark). After harvesting in 20 mM EDTA, samples were incubated with human immunoglobulin and then stained with antihuman CD3, CD4 and CD8 (Beckman Coulter, USA) fluorescent antibodies before acquisition and analysis. Only CD3+ T cells were used in the analysis. Resting and blast lymphocytes were gated on the forward and side scatter plot ( Figure 2). Dead cells were excluded from all analyses. CD4+ and CD8+ cells were identified in the gate of blast lymphocytes. Proliferation was measured as percentage of CD3+ blasts in the PHA-stimulated well from which basal proliferation without stimulation was subtracted (PHA, Sigma, USA, 7.5 μg/mL).

Statistical Analysis
Features of the normal and HIV-exposed newborns and their mothers were compared by the Mann-Whitney and Kruskall-Wallis tests. Values were considered statistically significant when the two-sided p-value was < 0.05. The relationships among the features were examined by the Spearman rank order correlation test. In order to find out which variables were related to birth weight and the T and B cell subsets, multiple step-wise linear regressions were run (0.05 for input and p = 0.1 for output, backward conditional stepwise selection) using the variables showing significant differences or correlations in the univariate analysis. Moreover, the R2 values of each regression, which represent the goodness-of-fit of the mathematical model, were recorded in order to estimate the approximation of the algorithm to clinical and biological reality. Finally, the stability of the model was tested by bootstrap resampling. In this technique we create new data sets of equal size by random sampling of the original data with replacement [16][17][18]. Thus, in a new bootstrap sample, a patient may be represented once, multiple times or not at all. Then, for each of these "new" sets, a linear regression is calculated and the variables entering each of the "new" models are recorded. This procedure tests the stability of a mathematical model, points out the most important variables and, furthermore, permits to calculate confidence intervals (IC). WinStat 3.1 software was used.

Ethics Approval
All mothers were invited to participate, received a complete explanation about the aims of the study and written informed consent was obtained according to our local Ethics's Committees (CAISM -Center of Integrated Care for Women's Health, and that of our Faculty of Medicine).

Pregnant women
The epidemiological features of the mothers entering the study are presented in Table 1. In the control group, only one mother was a smoker. Yet, smoking and drug abuse (marihuana, cocaine or crack) was common among the HIV+ ones. Both maternal groups had a similar age and a similar time of gestation. HIV+ mothers had a cesarean section in all but one case. Among HIV-negative mothers 11 had a vaginal and 4 a cesarean delivery. Antiretroviral therapy included protease inhibitors in all but 3 cases. Mean time of maternal HAART treatment was 5 months. Eight mothers got pregnant while already using HAART. HIV viral load was undetectable in 23 HIV+ mothers and low in the remaining thirteen (Table 1).
Mothers' PB counts are shown on Table 2. HIV+ mothers had hemoglobin values similar to that of HIVuninfected ones, but showed a significantly higher mean corpuscular volume (MCV), lower total leukocyte and neutrophil counts. The proportion of T CD4+ and T CD8+ lymphocytes of the HIV+ mothers presented similar values in smokers, non-smokers and drug users.
The cytokine concentrations in the supernatant of PBMC cultures not stimulated and after stimulation with BCG and PHA in mothers at 35 weeks of gestation are presented on Table 3. HIV+ mothers showed lower values of IL-4 and IL-7, but higher values of TNFα in non-stimulated cultures. Production of IL-2 and IL-12 by PBMCs in non-stimulated as well as stimulated cultures were similar both in normal and HIV-infected mothers.
The CD4/CD8 ratio in PB of HIV+ mothers showed an inverse relation with viral load (r = -0.30; p = 0.02) and production of TNFα by PBMCs (non-stimulated) (r = -0.27; p = 0.04) and a direct correlation with IL-10 (r = 0.35; p = 0.01). There was no correlation with IL-7. Figure 2 Analysis of T cell proliferation of non-stimulated (A) and PHA-stimulated (B) cord mononuclear cells of a newborn from a HIV-infected mother. After gating of CD3 cells, events were analyzed for size and complexity (forward-scatter and side-scatter gates), from which resting (R1-green) and blast cells (R2-blue) were separated. T-lymphocyte subsets were then analyzed. Dead cells (red) were excluded from all analyses. T cell proliferation was the difference between the percentages of PHA-stimulated blasts and non-stimulated blasts. In a multiple regression, we obtained the formula: Maternal CD4/CD8 ratio = 0.946 + 5.6 × 10 -5 × IL-10 -9.8 × 10 -5 × TNFα -0.0567 × log viral load + 0.9468 R 2 = 0.335 ; p = 0.004 The stability of the model was confirmed in a bootstrap resampling procedure. Among 100 new models, "log viral load" entered in 97%, "IL-10" level in 89%, "TNFα" in 60% and "IL-7" in 28% of them.

Newborns
The birth data of the newborns are described in Table 4. Children of HIV+ mothers had a similar height but a lower weight than those born to uninfected mothers. Furthermore, they had lower hemoglobin levels, a higher MCV and lower leukocyte and neutrophil counts than non-exposed newborns. The number of days of maternal ARV treatment during pregnancy did not influence these values, but there was a good correlation between maternal and cord blood red blood cells (RBCs) (r = 0.56; p < 0.0005) and MCV (r = 0.54; p < 0.0005). This was less evident concerning hemoglobin values (r = 0.21; p = 0.06).
The birth weight of HIV-exposed infants showed a relation with the duration of maternal HAART treatment during pregnancy and the TNFα production (nonstimulated cultures) in supernatants of cultures of PB mononuclear cells collected at the end of gestation.
Maternal age, smoking, weeks of gestation and child's gender had no relation to birth weight.
The distribution of the several lymphocyte subsets in cord blood is shown on Table 4. The percentage of CD3 + lymphocytes in HIV-exposed newborns was increased when compared with the non-exposed ones. The CD4/ CD8 ratio was significantly lower.   In HIV-exposed neonates the relation of the number of cord T lymphocytes with maternal age, days of HAART use during pregnancy, smoking and drug abuse was examined in a multiple regression. For T CD8+ cell no model could be obtained.
The percentage of T CD4+ cells was lower in children from older and smoking mothers.
This percentage could be calculated by the formula: Cord % T CD4+ cells = -0.428 × mother's age (years) -4.91 (S) + 30.52; S = 1 for smoking and 0 for non-smoking mother. R 2 = 0.242 (CI 95%: 16.6 -51.1) Drug abuse and days of maternal HAART treatment during pregnancy did not enter the model. The stability of the model for cord blood T CD4+ cells was confirmed in the bootstrap resampling. Among 100 new models, "maternal age" entered in 87% and "maternal smoking" in 72% of them. "Duration of maternal HAART treatment" entered in 42%, and "drug abuse" in 11% of the models.
CD3, CD4 and CD8 immunophenotyping was carried out in cell cultures of cord blood from 22 newborns from HIV + mothers and 10 non-exposed ones. Median background CD3+ proliferation was 9.6% (0.5-25.9) in the HIV+ group and 10.4% (6.2-91.7) in the controls (p = 0.44). The blast percentage in PHA-stimulated cultures showed a median of 40.3% (1.5-71.6) for the HIV+ group and 54.2 (11.7-74.8) for the non-exposed controls. The proportion of PHA-proliferating CD4+ and CD8+ cells were not different between the groups (Table 5).
Cord blood CD19+ lymphocytes (Table 6) were increased in newborns of HIV+ mothers due to an increase of CD19+/CD5+ cells. Children of drug users had the highest numbers of total B lymphocytes. The duration of HAART during pregnancy showed no correlation with the total number of cord blood B-cells or with that of CD19+/CD5+ ones.
B-cell maturation was analyzed in two four-color combinations ( Table 6). The CD45/CD34/CD19/ CD22 combination was the most useful to reveal an increase in immature and intermediary B-precursors in infants of HIV+ mothers. This feature was more pronounced in children of drug users.
In HIV-exposed neonates, there was no significant difference in the proportion of immature cells with the newborn's gender (p = 0.33) or children of smokers and non-smokers (p = 0.21), but those of drug users showed a higher percentage (p = 0.007) ( Table 6). There was no significant correlation between this variable and gestation duration or maternal age but with the number of days of maternal HAART use (r = 0.53; p = 0.01).
In a multiple regression, examining the relation between the percentage of cord blood immature cells with maternal drug abuse and the number of days of HAART treatment during pregnancy, the proportion of Table 4 Birth data, cord blood counts and lymphocyte subsets of the newborns (median and range) Not exposed (controls) HIV -exposed p value   The stability of this regression model was tested by the bootstrap resampling study, where both variables entered in 98% of the new data sets.
The cytokine concentrations in the supernatant of CBMC cultures (Table 7) showed a high correlation with the values found for their mothers (Table 3), excluding those of IFNγ and TNFα. IL-4 and IL-7 production was lower in HIV+ mothers and cord blood mononuclear cells. Concerning IL-10, there was no significant difference between HIV+ and HIV negative mothers. However, HIV-exposed newborns produced higher amounts than non-exposed, although these differences had a low statistical significance.
Concerning TNFα, HIV+ mothers had a higher production, especially drug users (p = 0.01). CBMCs of HIV-exposed infants produced similar amounts of TNFα but more IFNγ than the control group. No correlation was found between the number of days of maternal HAART treatment during pregnancy and CBMC cytokine production.
In non-exposed newborns, no correlation was found between the percentage of CD19+ cells as well as CD19 +/CD5+ ones and any cytokine production in CBMCs. However, in HIV-exposed newborns, an inverse correlation was found between total cord blood CD19+ cells and cord IL-4 and IL-7 production in nonstimulated cultures (Table 8). Table 6 B lymphocyte subsets and B-cell maturation in cord blood studied in the CD45/CD34/CD19/CD22 and sIgM/ CD34/CD19/CD10 combinations (median and range) Non exposed controls HIV exposed HIV exposed drug using mother p value * percentage of the total CD19 + cells, ** immature cells, ***intermediary and ****mature B-cells. Table 7 Cytokine levels (in pg/ml, median and range) without antigenic stimulus and after stimulation with BCG and PHA in the supernatant of cord blood cell cultures Non-exposed newborns HIV-exposed newborns A positive correlation was seen between CD19+/CD5+ cells and cord IL-7 and IL-10, but no correlation was found between these cells and production of IL-4, IFNγ and TNFα by CBMCs.
Discussion HIV-exposed uninfected infants present a variety of small but significant alterations compared to nonexposed neonates such as a lower birth weight, peripheral blood cytopenias and distribution pattern of circulating lymphocyte subsets [1,2,4,5,10,[19][20][21][22][23][24][25]. Their lower birth weight has been attributed to an earlier delivery due to a higher rate of elective cesarean section [10] or to an earlier maternal Th2 to Th1 shift related to the antretroviral treatment leading to a premature delivery [15]. In our study however, the gestation period was similar in both groups despite that HIV+ mothers delivered by an elective cesarean section. Low weight at birth of HIV-exposed infants was associated to a high maternal production of TNFα at the end of pregnancy, which was more common in drug abusing mothers. It has been shown that neither HAART nor decreased IL-10 levels, but only increase in maternal IL-2 is associated to a premature delivery [26][27][28]. To the best of our knowledge there are no data in the literature about the relation between maternal IL-7 and IL-4 and low birth weight and prematurity. In our study, a better control of the maternal HIV infection, expressed by an increase of the CD4/CD8 ratio, was also associated with a lower production of TNFα and higher one of IL-10.
In our prospective controlled trial we compared hematological and immunological features of term newborns from HIV+ women under effective HAART treatment during pregnancy with normal unexposed newborns. Hemoglobin, leukocyte and neutrophil counts were lower, and MCV was higher. These alterations were similar to those described in the literature [1,2,4,10], and could be readily explained by maternal HAART treatment and placental drug transfer, as it has been already pointed out [4,25]. We could not demonstrate an association of the intensity of the newborns' peripheral cytopenias with the duration of maternal HAART treatment, but when maternal and newborns' PB counts were compared, RBC and MCV showed a significant correlation. We could not find any correlation concerning leukocytes and platelets. Our study cohort was rather small, but other factors, such as maternal nutritional status or use of antibacterial medications could have influenced the PB counts found.
We could also detect several differences in cord blood lymphocyte sub-populations in our HIV-exposed uninfected newborns when compared to children from HIV negative mothers. We studied the possible association of these alterations with the maternal and cord blood cytokine profile, duration of maternal HAART treatment as well as maternal smoking and drug abuse.
Concerning maternal cytokine profile, HIV+ women only differed from uninfected ones by a lower production of IL-4 and IL-7 in culture, but more TNFα, especially in drug using women. A decrease in the Th2 cytokine profile has been described at the end of pregnancy [26]. On the other hand, antiretroviral drugs, especially protease inhibitors as used in the present study, have been associated to a metabolic syndrome associated with an activation of pro-inflammatory cytokines, mainly TNFα [27]. We may speculate that the co-occurrence of maternal HIV-1 infection, use of HAART and hard drugs, all contributed to a higher stimulation of maternal immune cells leading to a larger baseline production of TNF-α in short term culture. The reduced production of IL-4 and IL-7 observed in HIV-infected mothers is in keeping with a change in T-lymphocyte homeostasis in HIV-infected patients.
The decrease of IL-4 and increase of IFN-γ in HIVexposed uninfected newborns speaks in favor of an environment with a Th1-shifted balance. This is more pronounced in newborns of HIV+ mothers under effective HAART [4,6,11,12]. This treatment has been associated with an at least a partial restoration of the immune function in HIV infected children and adult patients [19][20][21][22].
Our results confirmed previous findings of changes in T-cell development in cord blood of uninfected newborns of HIV -infected mothers with undetectable or low viral load [2,[9][10][11]. Our HIV-exposed uninfected newborns presented higher numbers of CD3 + cells, due mainly to increase in CD8 + lymphocytes as is seen in HIV-infected adults. Lower proportions of CD4 + , but not of CD8 + T cells was also associated to a higher maternal age and smoking. Although we examined only a small number of patients, these findings are in keeping Table 8 Correlations found in HIV-exposed neonates between cord blood B-cell subsets and cytokine production by cord mononuclear cells in culture with those found in adult smokers [29,30]. Therefore, not only the maternal HIV infection could alter the thymus function of exposed infants, but also maternal smoking.
Placental transfer of HIV-related proteins and residual maternal immune alterations could be responsible for the findings concerning the immune function of our HIV-exposed non-infected neonates [31,32]. On the other hand, 11/15 of the healthy control mothers in our study had a normal vaginal delivery, while all except one of the HIV-infected mothers had a cesarean section. Therefore, some differences found between HIVexposed and non-exposed neonates may be explained by the different mode of delivery of both groups of newborns. It has been shown that normal labor induces immune stimulation in mothers and neonates including a higher production of TNF-α [33]. This could explain the difference found of this cytokine in supernatants of maternal but not in cord mononuclear cultures, as normal newborns were stimulated by labor and HIVexposed ones were already stimulated by the maternal HIV infection.
The long term CBMC cultures demonstrated similar numbers of T-derived activated cells after PHA stimulation in HIV-exposed neonates and non-exposed ones. Similar proportions of CD4+ and CD8+ cells were also observed in HIV-exposed uninfected newborns and unexposed ones, speaking in favor of a preserved function of these cells.
Cord blood B lymphocytes were increased in HIVexposed neonates, mainly caused by an increase in CD19+/CD5+ cells. A B-cell dysfunction with appearance of immature/transitional B-cells and hypergammaglobulinemia has also been described in active HIV infection in adults [8,20,[34][35][36]. There are some discrepancies in the literature concerning the change in number of these cells in adult HIV-infected patients [19][20][21][22][23][24]. However, long-term response to HAART seems to restore at least partially, the number and function of these cells [8,10,12,19,20]. In the present study, the number of CD5+ B lymphocytes was correlated directly with production of IL-7 and IL-10 by CBMCs. CD5 is a negative regulator of the B-cell receptor signaling contributing to a prolonged cell survival and maintaining tolerance in anergic B cells in vivo [37]. In cord blood, CD5+ B lymphocytes represent about half of the B cells [38]. The increase of CD5+ B lymphocytes in our HIVexposed newborns may be an expression of an immune deregulation due to placental transfer of viral proteins and cytokines. How these changes may affect the neonatal development of HIV-exposed uninfected children is not known, but a reduced response to neonatal vaccines has been reported [13]. So, the changes found in our HIV-exposed newborns indicate that, although HAART controlled maternal HIV infection, leading to low or undetectable viral load at 35 weeks of pregnancy, children still had changes in B lymphocytes, consistent with some remaining HIV-mediated immune abnormalities.
We studied B-cell maturation in cord blood using four-color-antibody combinations proposed by van Lochen et al [39]. Only the combinations that examined the initial maturation of the B cell line were able to disclose differences between normal newborns and those born to HIV+ mothers. Especially maternal drug abuse and a longer period of maternal HAART treatment during pregnancy were associated with a larger number of immature B-cells. This could be a sign of a higher fetal burden of HIV-related proteins and TNFα [33]. Little is known about the influence of cocaine on the immune system, although some earlier studies [40] have shown a smaller stimulation of cord lymphocytes by PHA and PMA and lower levels of IL-1 and IL-2 in cord blood from newborns of drug abusing mothers.

Conclusions
We conclude that in our study setting, uninfected infants born to HIV+ women, several immunological abnormalities could be detected. They were related to the residual maternal immune changes caused by the HIV infection as well as the use of antiretroviral drugs during pregnancy. Maternal smoking was associated to changes in cord CD3/CD4 cells, and maternal hard drug abuse was associated to more pronounced changes in the cord B cell line. Immunological changes in uninfected infants born to HIV+ women may persist for several years [2,[9][10][11]. Little is known about their long term clinical significance. It would be interesting to examine in detail the evolution of the PB lymphocyte subsets in our study cohort. The role of maternal smoking and drug abuse on the development of the immune system of their offspring should also be studied in larger cohorts of mother-child pairs.